Late Quaternary landscape development along the Rancho Marino coastal range front (south-central Pacific Coast Ranges, California, USA)

Late Quaternary landscape development along the Rancho Marino coastal range front in the central-southern Pacific Coast Ranges of California has been documented using field mapping, surveying, sedimentary facies analysis and a luminescence age determination. Late Quaternary sediments along the base of the range front form a single composite marine terrace buried by alluvial fans. Marine terrace sediments overlie two palaeoshore platforms at 5 m and 0 m altitude. Correlation with the nearby Cayucos and San Simeon sites links platform and marine terrace development to the 125 ka and 105 ka sea-level highstands. Uplift rate estimates based on the 125 ka shoreline angle are 0.01-0.09m ka(-1) (mean 0.04m ka(-1)), and suggest an increase in regional uplift along the coast towards the NW where the San Simeon fault zone intersects the coastline. Furthermore, such low rates suggest that pre-125 ka uplift was responsible for most of the relief generation at Rancho Marino. The coastal range front landscape development is, thus, primarily controlled by post 125 ka climatic and sea-level changes. Post 125 ka sea-level lowering expanded the range front piedmont area to a width of 7.5 km by the 18 ka Last Glacial Maximum lowstand. This sea-level lowering created space for alluvial fan building along the range front. A 45 +/- 3 ka optically stimulated luminescence (OSL) age provides a basal age for alluvial fan building or marks the time by which distal alluvial fan sedimentation has reached 300m from the range front slope. Fan sedimentation is related to climatic change, with increased sediment supply to the range front occurring during (1) glacial period cold stage maxima and/or (2) the Late Pleistocene-Holocene transition, when respective increases in precipitation and/or storminess resulted in hillslope erosion. Sea-level rise after the 18 ka lowstand resulted in range front erosion, with elevated localised erosion linked to the higher relief and steeper slopes in the SE. This study demonstrates that late Quaternary coastal range front landscape development is driven by interplay of tectonics, climatic and sea-level change. In areas of low tectonic activity, climatic and sea-level changes dominate coastal landscape development. When the sea-level controlled shoreline is in close proximity to the coastal range front, localised patterns of sedimentation and erosion are passively influenced by the pre-125 ka topography. Copyright (C) 2008 John Wiley & Sons, Ltd.